When a positive charged object is placed in a magnetic field, it experiences a force perpendicular to both the direction of the magnetic field and the object's velocity. The direction of the force is determined by the right-hand rule, and the object will move in a curved path due to this force.
The negatively charged object will attract the positive charges in the neutral object, causing them to move away, leaving the side closer to the negatively charged object slightly positive and the other side slightly negative. This uneven distribution of charges is known as polarization.
When an object is charged by induction, it becomes polarized due to the redistribution of charges. The object does not gain or lose a net charge, but develops regions of positive and negative charge. If the inducing object is removed, the polarization disappears.
The space around a charged object in which another charged object experiences an electric force is known as the electric field. The electric field at any point in space represents the force that would be experienced by a positive test charge if placed at that point. It exerts a force on any charged object within its influence.
When an object is electrostatically charged, it means that it carries an imbalance of positive or negative charges. This can cause the object to attract or repel other nearby charged objects based on their charge polarity. The charged object may also create electric fields around it that can influence the behavior of other charged objects in its vicinity.
A positively charged object placed within a positive electric field will experience a force pushing it in the direction of the field. This force will cause the object to accelerate in the direction of the field lines.
The negatively charged object will attract the positive charges in the neutral object, causing them to move away, leaving the side closer to the negatively charged object slightly positive and the other side slightly negative. This uneven distribution of charges is known as polarization.
When an object is charged by induction, it becomes polarized due to the redistribution of charges. The object does not gain or lose a net charge, but develops regions of positive and negative charge. If the inducing object is removed, the polarization disappears.
The space around a charged object in which another charged object experiences an electric force is known as the electric field. The electric field at any point in space represents the force that would be experienced by a positive test charge if placed at that point. It exerts a force on any charged object within its influence.
Induction happens
It will be pushed away from the source of the electric field.
When an object is electrostatically charged, it means that it carries an imbalance of positive or negative charges. This can cause the object to attract or repel other nearby charged objects based on their charge polarity. The charged object may also create electric fields around it that can influence the behavior of other charged objects in its vicinity.
Attraction
A positively charged object placed within a positive electric field will experience a force pushing it in the direction of the field. This force will cause the object to accelerate in the direction of the field lines.
Yes.
"Negative" and "positive" are terms used with electrical forces, not with magnetic forces."Negative" and "positive" are terms used with electrical forces, not with magnetic forces."Negative" and "positive" are terms used with electrical forces, not with magnetic forces."Negative" and "positive" are terms used with electrical forces, not with magnetic forces.
A positively charged object will repel other positively charged objects. Additionally, it will attract negatively charged objects.
They attract.